SU355705A1 - SPARK INTERMEDIATION OF AC VENTILE DISCHARGE - Google Patents

Description

The invention relates to electrical engineering, in particular to overvoltage protection devices.

Known spark gaps of an AC gate valve containing two insulating plates, between which there is a narrow gap arc chamber, two electrodes and permanent magnets located outside the chamber to create a magnetic blow in it, do not allow to increase the arc damping ability of a single gap and reduce dimensions.

In the present invention, this disadvantage is eliminated due to the fact that in it the electrodes are located on the periphery of the chamber, and in the electrode, which is closer to the center of said insulating plates, at half of its height there is a slot, into which an additional insulating plate is inserted. The arcing chamber is heightwise into two cavities in which the arc is stretched at different polarities of the current.

FIG. 1 shows two current-limiting spark gaps in the section; in fig. 2 - the internal cavity of the arc chamber in plan; in fig. 3 - schematic diagram of two spark gaps.

consists of two identical lids in configuration - the upper 2 and nilsey 3, made of porous ceramics. In the cavity of the chamber between the two lids, two electrodes 4 and 5 are placed, located on the straight line passing through the center of the chamber. The illuminating electrodes are electrically connected to the working electrodes. The potential difference between the illuminating electrodes creates a glow that reduces the pulse coefficient and stabilizes the breakdown voltage. Insulation partition 6 allows the chamber to be divided into two secondary-upper 7 and lower 8. On the side of the chamber.

a groove for accommodating a shunt resistor 9. Permanent magnets 10 are shown above and below. A protrusion 11 is provided to prevent the arc from turning. After a gap breakdown, the arc moves

in the field of permanent magnets and depending on polarity, it is guided and stretched in the upper or lower secondary chamber.

Each secondary chamber has stops that prevent the arc from turning. So

Thus, every two electrodes are run through ducks are used in two independent secondary chambers. The accepted shape of the electrodes and their displacement to one side allow one to obtain the maximum arc extension, i.e., a dock to each individual icing gap in the body of the chamber without going beyond its overall dimensions.

The shunting of each unit gap significantly improves the distribution of voltage across the gaps and increases their utilization rate.

The design allows for a current-limiting spark gap with permanent magnets, which is not inferior to the arc gap with an electromagnetic suppression along the length of the arc.

Subject invention

A spark gap of an alternating current gate valve containing two insulating plates, between which there is a narrow-gap arcing chamber, two electrodes and permanent magnets located outside the chamber to create a magnetic blowing in it, characterized in that in order to increase the arcing capacity of a single gap and downsizing, the electrodes are located on the periphery of the chamber, and in the electrode, which is closer to the center of the said insulating plates, a slot is made at half its height In which an additional insulating plate is inserted, which divides the height of the arcing chamber into two cavities in which the arc is stretched at different polarities of the current.

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and so forth 2

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